SYGMA: Stellar Yields for Galactic Modeling Applications

TL;DR

SYGMA is an open-source software module that models stellar yields and feedback for galactic chemical evolution, incorporating extensive stellar yield libraries and customizable parameters for use in simulations.

Contribution

It introduces a flexible, extendable module with comprehensive stellar yields, customizable initial conditions, and an online interface for interactive galactic evolution modeling.

Findings

NuGrid yields show less C and N enrichment at low metallicity compared to previous models.

Different supernova explosion prescriptions significantly affect early ejecta composition.

The module's results highlight the importance of hot-bottom burning in AGB star yields.

Abstract

The stellar yields for galactic modeling applications (SYGMA) code is an open-source module that models the chemical ejecta and feedback of simple stellar populations (SSPs). It is intended for use in hydrodynamical simulations and semi-analytic models of galactic chemical evolution. The module includes the enrichment from asymptotic giant branch (AGB) stars, massive stars, SNIa and neutron-star mergers. An extensive and extendable stellar yields library includes the NuGrid yields with all elements and many isotopes up to Bi. Stellar feedback from mechanic and frequency-dependent radiative luminosities are computed based on NuGrid stellar models and their synthetic spectra. The module further allows for customizable initial-mass functions and supernova Ia (SNIa) delay-time distributions to calculate time-dependent ejecta based on stellar yield input. A variety of r-process sites can be included. A comparison of SSP ejecta based on NuGrid yields with those from Portinari et al. (1998) and Marigo (2001) reveals up to a factor of 3.5 and 4.8 less C and N enrichment from AGB stars at low metallicity, a result we attribute to NuGrid's modeling of hot-bottom burning. Different core-collapse supernova explosion and fallback prescriptions may lead to substantial variations for the accumulated ejecta of C, O and Si in the first $10^7\, \mathrm{yr}$ at $Z=0.001$. An online interface of the open-source SYGMA module enables interactive simulations, analysis and data extraction of the evolution of all species formed by the evolution of simple stellar populations.